The free decay of non-helical relativistic magnetohydrodynamic turbulence is studied numerically,
and found to exhibit cascading of magnetic energy toward large scales. Evolution of the magnetic
energy spectrum PM(k, t) is self-similar in time and well modeled by a broken power law with sub�inertial and inertial range indices very close to 7/2 and −2 respectively. The magnetic coherence scale
is found to grow in time as t
2/5
, much too slow to account for optical polarization of gamma-ray burst
afterglow emission if magnetic energy is to be supplied only at microphysical length scales. No bursty
or explosive energy loss is observed in relativistic MHD turbulence having modest magnetization,
which constrains magnetic reconnection models for rapid time variability of GRB prompt emission,
blazars and the Crab nebula.
Subject headings: magnetohydrodynamics — turbulence — magnetic fields — gamma-rays: bursts —